Journal Articles

  1. & Platelet reactivity influences clot structure as assessed by fractal analysis of viscoelastic properties. Platelets, 1-9.
  2. & Assessment of platelet function in patients with stroke using multiple electrode platelet aggregometry: a prospective observational study. BMC Neurology 16(1)
  3. & Cognitive Outcomes following Thrombolysis in Acute Ischemic Stroke: A Systematic Review. Journal of Stroke and Cerebrovascular Diseases 25(12), 2868-2875.
  4. & An Investigation Into the Effects of In Vitro Dilution With Different Colloid Resuscitation Fluids on Clot Microstructure Formation. Anesthesia & Analgesia 123(5), 1081-1088.
  5. & Altered clot microstructure detected in obstructive sleep apnoea hypopnoea syndrome. Sleep Science 9(1), 14-19.
  6. & Effects of exercise intensity on clot microstructure and mechanical properties in healthy individuals. Thrombosis Research 143, 130-136.
  7. & The effect of sepsis and its inflammatory response on mechanical clot characteristics: a prospective observational study. Intensive Care Medicine 42(12), 1990-1998.
  8. & The Effects of Temperature on Clot Microstructure and Strength in Healthy Volunteers. Anesthesia & Analgesia 122(1), 21-26.
  9. & Fractal dimension (df) as a new structural biomarker of clot microstructure in different stages of lung cancer. Thrombosis and Haemostasis 114(6), 1251-1259.
  10. & A new biomarker quantifies differences in clot microstructure in patients with venous thromboembolism. British Journal of Haematology 168(4), 571-575.
  11. & The changes in clot microstructure in patients with ischaemic stroke and the effects of therapeutic intervention: a prospective observational study. BMC Neurology 15(1), 35
  12. & Prospective Evaluation of Blood Coagulability and Effect of Treatment in Patients with Stroke Using Rotational Thromboelastometry. Journal of Stroke and Cerebrovascular Diseases 24(2), 304-311.
  13. & Fractal dimension: A novel clot microstructure biomarker use in ST elevation myocardial infarction patients. Atherosclerosis 240(2), 402-407.
  14. & Effects of unidirectional flow shear stresses on the formation, fractal microstructure and rigidity of incipient whole blood clots and fibrin gels. Clinical Hemorheology and Microcirculation 60(4), 451-464.
  15. & Application of ROTEM to assess hypercoagulability in patients with lung cancer. Thrombosis Research 135(6), 1075-1080.
  16. & The role of whole blood impedance aggregometry and its utilisation in the diagnosis and prognosis of patients with systemic inflammatory response syndrome and sepsis in acute critical illness. PLoS ONE 9
  17. & Assessment of the stress relaxation characteristics of critical gels formed under unidirectional shear flow by controlled stress parallel superposition rheometry. Journal of Non-Newtonian Fluid Mechanics 222, 227-233.
  18. & A new structural biomarker that quantifies and predicts changes in clot strength and quality in a model of progressive haemodilution. Thrombosis Research 134(2), 488-494.
  19. & Fractal analysis: a new biomarker for determining clot characteristics in critically ill patients. Critical Care 16(Suppl 1), P430
  20. & Fractal dimension: a biomarker for detecting acute thromboembolic disease. Critical Care 16(Suppl 1), P431
  21. & Rheometrical and molecular dynamics simulation studies of incipient clot formation in fibrin-thrombin gels: An activation limited aggregation approach. Journal of Non-Newtonian Fluid Mechanics 166(16), 932-938.
  22. & The development of rheometry for strain-sensitive gelling systems and its application in a study of fibrin–thrombin gel formation. Rheologica Acta 49(9), 891-900.
  23. & Gel point and fractal microstructure of incipient blood clots are significant new markers of hemostasis for healthy and anticoagulated blood. Blood 116(17), 3341-3346.
  24. & Fractal analysis of viscoelastic data with automated gel point location and its potential application in the investigation of therapeutically modified blood coagulation. Rheologica Acta 49(9), 901-908.
  25. & Studies of whole blood coagulation by oscillatory shear, thromboelastography and free oscillation rheometry. Clinical Hemorheology and Microcirculation 38
  26. & Rheometry and associated techniques for blood coagulation studies. Medical Engineering & Physics 30(6), 671-679.
  27. & A study of gelatin gelation by Fourier transform mechanical spectroscopy. Journal of Non-Newtonian Fluid Mechanics 148(1-3), 127-133.

Conference Contributions

  1. & (2008). Rheometrical studies of blood clot formation by oscillatory shear, thromboelastography, sonoclot analysis and free oscillation rheometry. Presented at AIP Conference Proceedings, doi:10.1063/1.2964777